KR100482688B1 - Disinfection system for a cooling tower - Google Patents

Abstract

The present invention relates to a sterilization apparatus for a cooling tower, comprising: a body (12) having a first storage space (14) and a second storage space (15) formed therein; A dust filter (16) provided in the first storage space (14) of the body (12) and connected to an air pump to remove foreign substances from the air supplied therefrom; A carbon filter 17 connected to the dust filter 16 to increase the amount of dissolved oxygen in the air passing therethrough; Ozone is provided in the second storage space 15 and connected to the carbon filter 17 to sterilize the air passing through it and supply the sterilized air to the water storage tank 4 and the pipes of the cooling tower 1. The generator 18 is provided, the cooling tower for the thermoelectric element 19 is attached to one side of the outer surface of the body 12 opposite to the second storage space 15 to cool the inside of the second storage space (15) A sterilizer was provided.

Therefore, various foreign substances are removed while the air supplied from the air pump passes through the dust filter 16, and the amount of dissolved oxygen in the air is increased while passing through the carbon filter 17, and the air in this state is discharged from the ozone generator 18. Since it is supplied to the water tank 4 and the pipes of the cooling tower 1 in the state mixed with the generated ozone, not only can sterilize various bacteria and microorganisms remaining in the water tank 4 and the pipes, but also the body 12. Is divided into a first storage space 14 and a second storage space 15, and a thermoelectric element 19 is attached to an outer surface of the second storage space 15 so that the ozone generator 18 has a second storage space ( 15) Since the inside can be cooled, the ozone generating efficiency of the ozone generator 18 can be maximized.

Description

Sterilizer for Cooling Tower {Disinfection system for a cooling tower}

The present invention relates to a cooling tower, and more particularly to a sterilizer for a cooling tower.

In high-rise buildings such as buildings, a central air-conditioning system is usually installed to allow the water heated in the boiler or the refrigerant cooled in the cooler to pass through the heat exchanger on each floor through a connecting pipe to keep the room warm or cool.

Here, the cooling system of the central air-conditioning system is further provided with a cooling tower (cooling tower), the cooling tower serves to cool it to some extent before the refrigerant absorbing heat while passing through the heat exchanger to the cooler.

Such a cooling tower is usually provided with a water tank in the lower portion of the cylindrical body, the supply pipe in the vertical direction in the center of the body is to be introduced into the water passing through the heat exchanger, the nozzle is installed at the top of the supply pipe is a nozzle that the water flowing into the supply pipe It is sprayed downward through.

A heat sink is rolled inside the body under the nozzle, and a blowing fan is installed at the top of the nozzle to discharge the air inside the body to the upper side.

In the conventional cooling tower, when the water passing through the heat exchanger is sprayed from the nozzle through the supply pipe and falls, the water flows gradually while contacting the outer surface of the heat sink, and thus heat is emitted from the water that absorbs a lot of heat while passing through the heat exchanger. The fan dissipates the heat in the body by the heat dissipation to the outside to cool the water to some extent.

However, in the conventional water tank, supply pipe, heat sink, discharge pipe of the cooling tower, various foreign matters remain, and bacteria and microorganisms multiply, thereby causing problems such as contamination of the cooling water and contamination of the entire cooling tower.

An object of the present invention for solving the above problems is to provide a sterilization apparatus for a cooling tower to not only sterilize the cooling water in the tank, but also to prevent contamination of the cooling tower and pipes.

Sterilization apparatus for a cooling tower of the present invention for achieving the above object, Sterilization apparatus for cooling tower, the body and the receiving space is formed therein; A dust filter provided on one side of the body and connected to an air pump to remove foreign substances from the air supplied therefrom; A carbon filter connected to the dust filter and increasing the amount of dissolved oxygen in the air passing therethrough; The ozone generator is connected to the carbon filter and sterilizes the air passing through the carbon filter and supplies the sterilized air to the water tank and the pipes of the cooling tower.

Another feature of the sterilization apparatus for a cooling tower of the present invention includes: a first storage space in which the body is provided with the dust filter and the carbon filter; It is partitioned into a second storage space in which the ozone generator is installed.

Another feature of the sterilization apparatus for a cooling tower of the present invention is that a thermoelectric element is attached to one side of an outer surface of the body opposite to the second storage space to cool the inside of the second storage space.

Therefore, as the air supplied from the air pump passes through the dust filter, various foreign substances are removed, and the amount of dissolved oxygen in the air increases as the air passes through the carbon filter, and in this state, the cooling tower is mixed with ozone generated from the ozone generator. It is supplied to the tanks and pipes of the tank, which not only can sterilize various bacteria and microorganisms remaining in the tanks and pipes, but also the body is divided into a first storage space and a second storage space, and a thermoelectric element is formed on the outer surface of the second storage space. Since it is installed to cool the inside of the second storage space is installed ozone generator, there is an effect such as to maximize the ozone generating efficiency of the ozone generator.

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

1 is a schematic perspective view showing a sterilization apparatus for the cooling tower of the present invention, and FIG. 2 is a schematic side cross-sectional view showing a cooling tower 1 in which the sterilization apparatus 11 of the present invention is installed, and this cooling tower 1 is introduced from the supply pipe 5. When the relatively warm water is sprayed through the nozzle 7, it contacts the bracket 8 and falls downward, and the falling water slowly collects in the reservoir 4 while flowing in contact with the plurality of cooling fins 10. As the blower fan 9 discharges the air in the body 2 to the outside, the outside air flows into the air inlet 3 and absorbs the heat emitted from the water, and then again by the blower fan 9. It is discharged to the outside.

The cooling tower 1 is provided with a sterilization device 11 connected to the features of the present invention, which is provided with a partition 13 therein, the inner space of the first storage space 14 and the second storage space 15 The body 12 is divided into a) is provided.

The first storage space 14 of the body 12 is provided with a dust filter 16 which is connected to an air pump (not shown) and removes foreign substances from the air supplied therefrom, and the dust filter 16 passes therethrough. A carbon filter 17 is connected to the air to increase the amount of dissolved oxygen.

On the other hand, the ozone generator 18 is installed in the second storage space 15 of the body 12, which is connected to the carbon filter 17 to sterilize the air passing through it and help sterilized air. As shown in FIG. 2, the cooling tower 1 is supplied into the reservoir 4, and although not shown, the cooling tower 1 is connected to the supply pipe 5 or the discharge pipe 6 to sterilize the cooling water and the tube circumference.

In addition, a thermoelectric element 19 which is another feature of the present invention is attached to one side of the outer surface of the body 12 opposite to the second storage space 15.

Here, the thermoelectric device has a thermistor, which is a device using a temperature change of electrical resistance, an electromotive force generated by a temperature difference, a device using the Seebeck effect, and a Peltier effect, a phenomenon in which heat is absorbed (or generated) by electric current. Peltier element which is used element, etc. are mentioned.

Among such thermoelectric elements, a Peltier element suitable for the present invention has a Peltier effect in which one terminal absorbs heat in the current direction and the other terminal generates heat when the two kinds of metal ends are connected and a current is sent thereto.

In addition, by using semiconductors such as bismuth (Bi) and tellurium (Te), which have different conduction methods, instead of two kinds of metals, a Peltier device having an efficient endothermic and heat generating effect can be obtained. Such a Peltier element can switch endotherm / heat generation according to the direction of current, and the endothermic / heat generation amount is adjusted according to the amount of current.

The thermoelectric element having the above-described effect is attached to the outer surface of the body 12 opposite to the second storage space 15 to cool the ozone generator 18 inside the second storage space 15.

In the sterilization apparatus for cooling tower of the present invention having such a configuration, the cooling water circulated in the operation of the cooling tower 1 is sprayed from the nozzle 7 and stored in the water storage tank 4 and again sterilized while circulating through the discharge pipe 6. Various bacteria contained in the cooling water are sterilized by the apparatus 11.

That is, when the air pump is operated so that the air passes through the dust filter 16, various foreign substances contained in the air are removed. As the primary filtered air passes through the carbon filter 17, the amount of dissolved oxygen in the air increases.

The air in which the foreign matter is filtered out and the amount of dissolved oxygen is finally mixed with the ozone generated in the ozone generator 18. The air containing the ozone is thus stored in the water reservoir 4, the supply pipe 5, and the discharge pipe of the cooling tower 1. It is supplied to (6).

Therefore, the ozone-containing air can sterilize various bacteria and microorganisms remaining in the reservoir 4, the supply pipe 5, and the discharge pipes, and various respiratory diseases such as microorganisms and bacteria generated when the air conditioner is driven. It will prevent disease.

Another advantage of the sterilization apparatus of the present invention is that the body 12 is divided into the first storage space 14 and the second storage space 15 and the thermoelectric element 19 is attached to the outer surface of the second storage space 15. Is that there is.

When the ozone generator 18 is driven at an ambient temperature of more than 30 ° C., the ozone generation rate is remarkably decreased. If the ambient temperature is close to 40 ° C., ozone is not generated at all.

Usually, the radiant heat of the rooftop on which the cooling tower 1 is installed becomes 45 ° C. to 60 ° C. in summer, and in this state, if the cooling system is not installed in the ozone generator 18, the ozone generating efficiency of the ozone generator 18 is significantly reduced. .

In view of these considerations, the sterilization apparatus for the cooling tower of the present invention has a thermoelectric element 19 installed in the body 12 to cool the inside of the second storage space 15 in which the ozone generator 18 is installed. The ozone generation efficiency of (18) can be maximized.

By using the thermoelectric element 19, if the temperature around the ozone generator 18 is kept below 20 ° C, more specifically, about 15 ° C, ozone can be generated smoothly.

According to the sterilization apparatus for a cooling tower according to the present invention as described above, the air supplied from the air pump is removed various foreign substances while passing through the dust filter 16, the amount of dissolved oxygen in the air is increased while passing through the carbon filter 17 Since the air in such a state is supplied to the reservoir 4 and the pipes of the cooling tower 1 in a state where it is mixed with ozone generated in the ozone generator 18, various bacteria remaining in the reservoir 4 and the pipes and In addition to sterilizing microorganisms, the body 12 is divided into a first storage space 14 and a second storage space 15, and a thermoelectric element 19 is attached to an outer surface of the second storage space 15. Therefore, since the inside of the second storage space 15 in which the ozone generator 18 is installed can be cooled, it is possible to maximize the ozone generating efficiency of the ozone generator 18.

Figure 1 is a schematic perspective view showing a sterilization apparatus for the present invention cooling tower

Figure 2 is a schematic side cross-sectional view showing a state in which the present invention sterilization device is connected to the cooling tower installed

* Description of the symbols for the main parts of the drawings *

One ; Cooling tower 4; Reservoir

5; Supply pipe 6; discharge pipe

11; Sterilizer 12; Body

15; Second storage space 16; Dust Filter

17; Carbon filter 18; Ozone generator

19; Thermoelectric element

Claims (3)

In the sterilizer for cooling tower, A body 12 having a storage space formed therein; A dust filter 16 provided at one side of the body 12 and connected to an air pump to remove foreign substances from the air supplied therefrom; A carbon filter 17 connected to the dust filter 16 to increase the amount of dissolved oxygen in the air passing therethrough; The ozone generator 18 is connected to the carbon filter 17 and sterilizes the air passing through the carbon filter 17 and supplies the sterilized air to the water storage tank 4 and the pipes of the cooling tower 1. Sterilizer for cooling towers. The method of claim 1, wherein the interior of the body 12, A first storage space 14 in which the dust filter 16 and the carbon filter 17 are installed; Sterilizing apparatus for a cooling tower, characterized in that partitioned into a second storage space (15) in which the ozone generator (18) is installed. The method of claim 1, Sterilizing apparatus for a cooling tower, characterized in that the thermoelectric element (19) is attached to one side of the outer surface of the body (12) facing the second storage space (15) to cool the inside of the second storage space (15).